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Anti-inflammatory effects of the cannabidiol derivative dimethylheptyl-cannabidiol - studies in BV-2 microglia and encephalitogenic T cells.
J Basic Clin Physiol Pharmacol. 2016 May 01; 27(3):289-96.JB

Abstract

BACKGROUND

Dimethylheptyl-cannabidiol (DMH-CBD), a non-psychoactive, synthetic derivative of the phytocannabinoid cannabidiol (CBD), has been reported to be anti-inflammatory in RAW macrophages. Here, we evaluated the effects of DMH-CBD at the transcriptional level in BV-2 microglial cells as well as on the proliferation of encephalitogenic T cells.

METHODS

BV-2 cells were pretreated with DMH-CBD, followed by stimulation with the endotoxin lipopolysaccharide (LPS). The expression levels of selected genes involved in stress regulation and inflammation were determined by quantitative real-time PCR. In addition, MOG35-55-reactive T cells (TMOG) were cultured with antigen-presenting cells in the presence of DMH-CBD and MOG35-55 peptide, and cell proliferation was determined by measuring [3H]thymidine incorporation.

RESULTS

DMH-CBD treatment downregulated in a dose-dependent manner the mRNA expression of LPS-upregulated pro-inflammatory genes (Il1b, Il6, and Tnf) in BV-2 microglial cells. The expression of these genes was also downregulated by DMH-CBD in unstimulated cells. In parallel, DMH-CBD upregulated the expression of genes related to oxidative stress and glutathione homeostasis such as Trb3, Slc7a11/xCT, Hmox1, Atf4, Chop, and p8 in both stimulated and unstimulated microglial cells. In addition, DMH-CBD dose-dependently inhibited MOG35-55-induced TMOG proliferation.

CONCLUSIONS

The results show that DMH-CBD has similar anti-inflammatory properties to those of CBD. DMH-CBD downregulates the expression of inflammatory cytokines and protects the microglial cells by inducing an adaptive cellular response against inflammatory stimuli and oxidative injury. In addition, DMH-CBD decreases the proliferation of pathogenic activated TMOG cells.

Links

Publisher Full Text (DOI)

Authors

Juknat A
No affiliation info available
Kozela E
No affiliation info available
Kaushansky N
No affiliation info available
Mechoulam R
No affiliation info available
Vogel Z
No affiliation info available

MeSH

AnimalsAnti-Inflammatory AgentsCannabidiolCell LineCell ProliferationCytokinesDown-RegulationEncephalitisGene ExpressionInflammationMacrophagesMiceMicrogliaT-LymphocytesUp-Regulation

Pub Type(s)

Journal Article

Language

eng

PubMed ID

26540221

Citation

Juknat, Ana, et al. "Anti-inflammatory Effects of the Cannabidiol Derivative Dimethylheptyl-cannabidiol - Studies in BV-2 Microglia and Encephalitogenic T Cells." Journal of Basic and Clinical Physiology and Pharmacology, vol. 27, no. 3, 2016, pp. 289-96.
Juknat A, Kozela E, Kaushansky N, et al. Anti-inflammatory effects of the cannabidiol derivative dimethylheptyl-cannabidiol - studies in BV-2 microglia and encephalitogenic T cells. J Basic Clin Physiol Pharmacol. 2016;27(3):289-96.
Juknat, A., Kozela, E., Kaushansky, N., Mechoulam, R., & Vogel, Z. (2016). Anti-inflammatory effects of the cannabidiol derivative dimethylheptyl-cannabidiol - studies in BV-2 microglia and encephalitogenic T cells. Journal of Basic and Clinical Physiology and Pharmacology, 27(3), 289-96. https://doi.org/10.1515/jbcpp-2015-0071
Juknat A, et al. Anti-inflammatory Effects of the Cannabidiol Derivative Dimethylheptyl-cannabidiol - Studies in BV-2 Microglia and Encephalitogenic T Cells. J Basic Clin Physiol Pharmacol. 2016 May 1;27(3):289-96. PubMed PMID: 26540221.
* Article titles in AMA citation format should be in sentence-case
TY - JOUR T1 - Anti-inflammatory effects of the cannabidiol derivative dimethylheptyl-cannabidiol - studies in BV-2 microglia and encephalitogenic T cells. AU - Juknat,Ana, AU - Kozela,Ewa, AU - Kaushansky,Nathali, AU - Mechoulam,Raphael, AU - Vogel,Zvi, PY - 2015/06/18/received PY - 2015/09/13/accepted PY - 2015/11/6/entrez PY - 2015/11/6/pubmed PY - 2017/4/21/medline SP - 289 EP - 96 JF - Journal of basic and clinical physiology and pharmacology JO - J Basic Clin Physiol Pharmacol VL - 27 IS - 3 N2 - BACKGROUND: Dimethylheptyl-cannabidiol (DMH-CBD), a non-psychoactive, synthetic derivative of the phytocannabinoid cannabidiol (CBD), has been reported to be anti-inflammatory in RAW macrophages. Here, we evaluated the effects of DMH-CBD at the transcriptional level in BV-2 microglial cells as well as on the proliferation of encephalitogenic T cells. METHODS: BV-2 cells were pretreated with DMH-CBD, followed by stimulation with the endotoxin lipopolysaccharide (LPS). The expression levels of selected genes involved in stress regulation and inflammation were determined by quantitative real-time PCR. In addition, MOG35-55-reactive T cells (TMOG) were cultured with antigen-presenting cells in the presence of DMH-CBD and MOG35-55 peptide, and cell proliferation was determined by measuring [3H]thymidine incorporation. RESULTS: DMH-CBD treatment downregulated in a dose-dependent manner the mRNA expression of LPS-upregulated pro-inflammatory genes (Il1b, Il6, and Tnf) in BV-2 microglial cells. The expression of these genes was also downregulated by DMH-CBD in unstimulated cells. In parallel, DMH-CBD upregulated the expression of genes related to oxidative stress and glutathione homeostasis such as Trb3, Slc7a11/xCT, Hmox1, Atf4, Chop, and p8 in both stimulated and unstimulated microglial cells. In addition, DMH-CBD dose-dependently inhibited MOG35-55-induced TMOG proliferation. CONCLUSIONS: The results show that DMH-CBD has similar anti-inflammatory properties to those of CBD. DMH-CBD downregulates the expression of inflammatory cytokines and protects the microglial cells by inducing an adaptive cellular response against inflammatory stimuli and oxidative injury. In addition, DMH-CBD decreases the proliferation of pathogenic activated TMOG cells. SN - 2191-0286 UR - https://www.unboundmedicine.com/medline/citation/26540221/Anti_inflammatory_effects_of_the_cannabidiol_derivative_dimethylheptyl_cannabidiol___studies_in_BV_2_microglia_and_encephalitogenic_T_cells_ DB - PRIME DP - Unbound Medicine ER -